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ObjectiveTo sort out the historical evolution, prescription evolution and modern clinical application of Huagaisan. MethodHuagaisan and its synonym Huagaitang are used as keywords to search the databases of Traditional Chinese Medicine Think Tank, Chinese Medical Dictionary, Airusheng Chinese Medical Database and China National Knowledge Infrastructure(CNKI). According to the inclusion and exclusion criteria, we obtained the information of ancient books and modern clinical research literature related to Huagaisan, and systematically reviewed and analyzed the historical origin, prescription composition, preparation method, dosage, efficacy, medicinal material origin, processing method and modern clinical application of Huagaisan. ResultA total of 198 pieces of ancient book information were included, involving 93 ancient Chinese medicine books. Huagaisan was composed of fried Perillae Fructus, red Poria, fried Mori Cortex, Citri Eoxcarpium Rubrum, stir-fried Armeniacae Semen Amarum, Ephedrae Herba and fried Glycyrrhizae Radix et Rhizoma, which had the efficacy of promoting the lungs and relieving epidemiological symptoms, expelling phlegm and relieving cough, and treating cough with wind-cold bundled epidemiological symptoms and stagnation of phlegm and Qi. The preparation method was suggested as boiling powder, crushing the seven herbs into coarse particles, the dosage of each drug was fried Perillae Fructus of 1.27 g, red Poria of 1.27 g, fried Mori Cortex of 1.27 g, Citri Eoxcarpium Rubrum of 1.27 g, stir-fried Armeniacae Semen Amarum of 1.27 g, Ephedrae Herba of 1.27 g and fried Glycyrrhizae Radix et Rhizoma of 0.64 g, taking 8.26 g when decocting, adding 300 mL of water, decocting to 210 mL, removing the dregs, and taking it warmly after meals. Twenty-one clinical research papers were included to analyze the modern clinical application of Huagaisan, which was mainly used in the treatment of respiratory diseases such as pneumonia, asthma, bronchitis and so on. ConclusionThis paper has verified and summarized the key information of the famous classical formula Huagaisan, which can provide a detailed reference basis for the development and clinical application of its compound preparation.
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ObjectiveTo establish an ultra-high performance liquid chromatography-tandem triple quadrupole mass spectrometry(UHPLC-QqQ-MS) for determination of the active ingredients in Erdongtang, and to predict the targets and pathways of anti-insulin resistance action of this formula. MethodThe analysis was performed on an ACQUITY UPLC BEH C18 column(2.1 mm×100 mm, 1.7 μm) with the mobile phase of 0.1% formic acid aqueous solution(A)-acetonitrile(B) for gradient elution(0-3 min, 90%-87%A; 3-6 min, 87%-86%A; 6-9 min, 86%-83%A; 9-11 min, 83%-75%A; 11-18 min, 75%-70%A; 18-19 min, 70%-52%A; 19-22 min, 52%A; 22-25 min, 52%-5%A; 25-27 min, 5%-90%A; 27-30 min, 90%A). The contents of active ingredients in Erdongtang was detected by electrospray ionization(ESI) and multiple reaction monitoring(MRM) mode under positive and negative ion modes. On this basis, network pharmacology was applied to predict the targets and pathways of Erdongtang exerting anti-insulin resistance effect. ResultThe 20 active ingredients in Erdongtang showed good linear relationships within a certain mass concentration range, and the precision, stability, repeatability and recovery rate were good. The results of determination showed that the ingredients with high content in 15 batches of samples were baicalein(1 259.39-1 635.78 mg·L-1), baicalin(1 078.37-1 411.52 mg·L-1), the ingredients with medium content were mangiferin(148.59-217.04 mg·L-1), timosaponin BⅡ(245.10-604.89 mg·L-1), quercetin-3-O-glucuronide(89.30-423.26 mg·L-1), rutin(46.91-1 553.61 mg·L-1), glycyrrhizic acid(55.97-391.47 mg·L-1), neomangiferin(37.45-127.03 mg·L-1), nuciferine(0.89-63.48 mg·L-1), hyperoside(6.96-136.78 mg·L-1), liquiritin(30.89-122.78 mg·L-1), liquiritigenin(26.64-110.67 mg·L-1), protodioscin(58.57-284.26 mg·L-1), the ingredients with low content were wogonin(7.16-20.74 mg·L-1), pseudoprotodioscin(5.49-22.96 mg·L-1), ginsenoside Rb1(7.31-23.87 mg·L-1), ginsenoside Rg1(10.78-28.33 mg·L-1), ginsenoside Re(7.78-24.76 mg·L-1), ophiopogonin D(2.08-4.29 mg·L-1), methylophiopogonanone A(0.74-1.67 mg·L-1). The results of network pharmacology indicated that the mechanism of anti-insulin resistance exerted by Erdongtang might be related to the phosphatidylinositol 3-kinase/protein kinase B(PI3K/Akt) signaling pathway. ConclusionThe established UHPLC-QqQ-MS has the advantages of simple sample processing, strong exclusivity and high sensitivity, and can simultaneously determine the contents of the main ingredients from seven herbs in Erdongtang, which can lay the foundation for the development of Erdongtang compound preparations. The results of the network pharmacology can provide a reference for the mechanism study of Erdongtang in the treatment of type 2 diabetes mellitus.
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This article systematically analyzes the historical evolution of the origin, scientific name, medicinal parts, quality evaluation, harvesting and processing and other aspects of Tsaoko Fructus by consulting ancient materia medica, medical books, prescription books in the past dynasties and combining with the modern literature, so as to provide a basis for the development and utilization of famous classical formulas containing Tsaoko Fructus. According to the research, the name of Caoguo(草果) was first used in the Taiping Huimin Heji Jufang(《太平惠民和剂局方》) in the Northern Song dynasty, Tsaoko Fructus is the correct name of the herbal medicine in all dynasties, and there are also aliases such as Caokou, Doukou, Loukou, Laokou and Caodoukou. The mainstream source of Tsaoko Fructus used in the past dynasties is the dried mature fruit of Amomum tsaoko of Zingiberaceae, but Tsaoko Fructus was often used as a nickname for Amomi Fructus Rotundus or Alpiniae Katsumadai Semen during the Song dynasty. Bencao Pinhui Jingyao(《本草品汇精要》) in the Ming dynasty was the earliest materia medica that recorded Tsaoko Fructus as a separate medicinal herb in sections. Under the influence of early ancient books, there were some books that confused Tsaoko Fructus with other Zingiberaceae plants during the Qing dynasty, it was not until modern times that Tsaoko Fructus was distinguished from other plants. The origin of Tsaoko Fructus is Yunnan and Guangxi, and then gradually expanded to Guizhou and other places. Now Yunnan is the province with the largest planting area of Tsaoko Fructus, and has become the main producing area. Since modern times, it has been recorded in the literature that the quality of Tsaoko Fructus is mainly characterized by large, full, red-brown and strong in smell. According to ancient records, the harvest time of Tsaoko Fructus was in the eighth month of the lunar calendar, and they were mostly used for peeling or simmering. Currently, the harvest period of Tsaoko Fructus is October to November, and then sun-dried or dried after harvesting. The records of the properties and functional indications of Tsaoko Fructus are basically consistent with the ancient and modern documents, which is warm in nature, pungent in flavor, belonging to the spleen and stomach meridians, moderate in dryness and dampness, intercepting malaria and eliminating phlegm, used for internal resistance of cold and dampness, abdominal distension and pain, fullness and vomiting, malaria cold and fever, and plague fever. Based on the research results, it is suggested that A. tsaoko should be used as the medicinal base for the development of famous classical formulas containing Tsaoko Fructus, processing method can be according to the requirements of the prescription, and if the requirements of concoction are not indicated, it can be used in the form of raw products.
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By consulting ancient and modern literature, the herbal textual research of Farfarae Flos has been conducted to verify the name, origin, producing area, quality evaluation, harvesting and processing methods, so as to provide reference for the development and utilization of the famous classical formulas containing Farfarae Flos. According to the research, the results showed that Farfarae Flos was first described as a medicinal material by the name of Kuandonghua in Shennong Bencaojing(《神农本草经》), and the name was used and justified by later generations. The main origin was the folwer buds of Tussilago farfara, in addition, the flower buds of Petasites japonicus were used as medicine in ancient times. The ancient harvesting time of Farfarae Flos was mostly in the twelfth month of the lunar calendar, and the modern harvesting time is in December or before the ground freeze when the flower buds have not been excavated. Hebei, Gansu, Shaanxi are the authentic producing areas with the good quality products. Since modern times, its quality is summarized as big, fat, purple-red color, no pedicel is better. Processing method from soaking with licorice water in the Northern and Southern dynasties to stir-frying with honey water followed by micro-fire in the Ming dynasty, and gradually evolved to the modern mainstream processing method of honey processing. Based on the research results, it is suggested that the dried flower buds of T. farfara, a Compositae plant, should be selected for the development of famous classical formulas containing Farfarae Flos, and the corresponding processed products should be selected according to the specific processing requirements of the formulas, and raw products are recommended for medicinal use without indicating processing requirements.
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By consulting the ancient and moderm literature, this paper makes a textual research on the name, origin, quality evaluation, harvesting and processing of Olibanum, so as to provide a basis for the development of the famous classical formulas containing this medicinal material. According to the herbal textual research, the results showed that Olibanum was first described as a medicinal material by the name of Xunluxiang in Mingyi Bielu(《名医别录》), until Ruxiang had been used as the correct name since Bencao Shiyi(《本草拾遗》) in Tang dynasty. The main origin was Boswellia carterii from Burseraceae family. The mainly producing areas in ancient description were ancient India and Arabia, while the modern producing areas are Somalia, Ethiopia and the southern Arabian Peninsula. The medicinal part of Olibanum in ancient and modern times is the resin exuded from the bark, which has been mainly harvested in spring and summer. It is concluded that the better Olibanum has light yellow, granular, translucent, no impurities such as sand and bark, sticky powder and aromatic smell. There were many processing methods in ancient times, including cleansing(water flying, removing impurities), grinding(wine grinding, rush grinding), frying(stir-frying, rush frying, wine frying), degreasing, vinegar processing, decoction. In modern times, the main processing methods are simplified to cleansing, stir-frying and vinegar processing. Nowadays, the commonly used specifications include raw, fried and vinegar-processed products. Among the three specifications, raw products is the Olibanum after cleansing, fried products is a kind of Olibanum processed by frying method, vinegar-processed products is the processed products of pure frankincense mixed with vinegar. Based on the research results, it is recommended to select the resin exuded from the bark of B. carterii for the famous classical formulas such as Juanbitang containing Olibanum, processing method should be carried out in accordance with the processing requirements of the formulas, otherwise used the raw products if the formulas without clear processing requirements.
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ObjectiveTo screen out the transcriptomes related to the intervention of Wuzi Yanzongwan on the spermatogenic function of semi-castrated male mice, and to explore its potential mechanism in the intervention of the progress of low spermatogenic function. MethodBalb/c mice were randomly divided into sham-operated group, model group, testosterone propionate group(0.2 mg·kg-1·d-1, intramuscular injection) and Wuzi Yanzongwan group(1.56 g·kg-1·d-1, intragastric administration) according to body weight, with 12 mice in each group. The right testicle and epididymis were extracted from the model group and the drug administration group to construct the semi-castrated model of low spermatogenic function, while the fur and the right scrotum of the sham-operated group were only cut and immediately sterilized and sutured. At the end of the intervention, hematoxylin-eosin(HE) staining was used to observe the histopathology of testis, enzyme-linked immunosorbent assay(ELISA) was used to detect the levels of serum testosterone(T), luteinizing hormone(LH) and follicle stimulating hormone(FSH). The sperm count and motility of epididymis were measured by automatic sperm detector of small animal. Transcriptomic microarray technology was used to detect the mRNA expression level of testicular tissue in each group, the transcriptome of genes related to the regulation of Wuzi Yanzongwan was screened, and three mRNAs were selected for Real-time fluorescence quantitative polymerase chain reaction(Real-time PCR) to verify the transcriptome data. Through the annotation analysis of Gene Ontology(GO) and the signaling pathway analysis of Kyoto Encyclopedia of Genes and Genomes(KEGG), the related functions of drugs regulating transcriptome were analyzed. ResultCompared with the sham-operated group, the testicular tissue of mice in the model group showed spermatogenic injury, contraction and vacuolization of the seminiferous tubules, reduction of spermatogenic cells at all levels, widening of the interstitial space, obstruction of spermatogonial cell development and other morphological abnormalities, and serum T significantly decreased, LH significantly increased(P<0.01), and FSH elevated but no statistically significant difference, the count and vitality of epididymal sperm significantly decreased(P<0.01). There were 882 differentially expressed mRNAs in the testicular tissues, of which 565 were up-regulated and 317 were down-regulated. Cluster analysis showed that these differentially expressed mRNA could effectively distinguish between the sham-operated group and the model group. Compared with the model group, the damage to testicular tissue in the Wuzi Yanzongwan group was reduced, the structure of the seminiferous tubules was intact, vacuolization was reduced, and the number of spermatogenic cells at all levels was significantly increased and arranged tightly. The serum T significantly increased, LH significantly decreased(P<0.01), and FSH decreased but the difference was not statistically significant. The count and vitality of sperm in the epididymis were significantly increased(P<0.01). Moreover, Wuzi Yanzongwan could regulate 159 mRNA levels in the testes of semi-castrated mice, of which 32 were up-regulated and 127 were down-regulated, and the data of the transcriptome assay was verified to be reliable by Real-time PCR. GO and KEGG analysis showed that the transcriptome functions regulated by Wuzi Yanzongwan were involved in the whole cell cycle process of sperm development such as sex hormone production of interstitial cells in testis, renewal, differentiation, metabolism, apoptosis and signal transduction of spermatogenic cells, and were closely related to the biological behaviors of signaling pathways such as spermatogenic stem cell function, endoplasmic reticulum protein processing and metabolic program. ConclusionWuzi Yanzongwan can effectively improve the low spermatogenic function of semi-castrated male mice, and its mechanism may be related to the regulation of testicular transcriptional regulatory network, the synthesis of sex hormones in testicular interstitial cells, the function of spermatogenic stem cells, the whole cell cycle process of spermatogenesis, as well as the expression of endoplasmic reticulum protein processing and metabolic program related genes transcription.
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The Danggui Yinzi, as one of the classic prescriptions, was first recorded in Yan's Jisheng Prescription and is mainly used to treat various skin diseases with blood deficiency and wind dryness. By referring to ancient books and modern literature researches, this study analyzed and summarized the literature of Danggui Yinzi from the aspects of prescription origin, composition, addition and subtractive changes of flavor, dosage and decocting and taking method, discrimination of prescription and efficacy, raw material and processing of medicinal materials, and modern clinical application. Textual researches explored more than 80 ancient literature and 170 modern literature and showed its content included Angelicae Sinensis Radix, Paeoniae Radix Alba, Chuanxiong Rhizoma, Rehmannia Radix, Tribuli Fructus, Saposhnikoviae Radix, Schizonepetae Spica, Polygoni Multiflora Radix, Astragali Radix, Glycyrrhizae Radix et Rhizoma. It was cooked by water. It was used for the patients with skin diseases and Chinese pattern of blood deficiency wind drying. It has showed a wide range of applications, and similar application in ancient and modern time. This paper provides a more comprehensive reference for the research and development of compound preparation of Danggui Yinzi.
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Danggui Liuhuangtang is the 47th of the 100 famous classical formulas published by the National Administration of Traditional Chinese Medicine, and is known as the holy medicine for night sweat. By bibliometrics, the authors collected the ancient books on Danggui Liuhuangtang and screened out 269 valid data, involving 156 ancient books of traditional Chinese medicine. The analysis on the historical origin, disease syndromes, pathogenesis, composition, dosage, preparation, usage, and processing of Danggui Liuhuangtang found that this famous classical formula originated from Secret Book of the Orchid Chamber (《兰室秘藏》) written by LI Dongyuan, and is composed of Angelicae Sinensis Radix, Rehmanniae Radix, Rehmanniae Radix Praeparata, Phellodendri Chinensis Cortex, Scutellariae Radix, Coptidis Rhizoma and Astragali Radix. It has the functions of nourishing Yin, reducing fire, consolidating exterior and stopping sweating, and mainly treats night sweat due to Yin deficiency and fire exuberance. In the later generations, disease syndromes are mostly treated based on LI Dongyuan's theory, and have expanded to more than 30 kinds (339 in total), among which night sweat (208) was the most, accounting for 61.36% of the total disease syndromes, followed by spontaneous sweating (38), accounting for 11.21%. Additionally, it was found that Danggui Liuhuangtang was widely used in modern clinical practice for various disease syndromes. Among them, endocrine disease (77, 28.21%) was predominant, followed by gynecological disease (48, 17.58%), and pediatric disease (24, 8.79%). Although Danggui Liuhuangtang treats many disease syndromes, their pathogenesis was always yin deficiency and fire exuberance. Through the systematic excavation of the ancient books on Danggui Liuhuangtang and the analysis of its modern clinical application, this paper probed into the historical evolution and confirmed the key information of the formula, providing detailed literature basis for the research and development application of famous classical formulas.
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In this paper, the name, origin, quality evaluation, producing area and processing methods of Lablab Semen Album in the famous classical formulas were researched by reviewing the ancient materia medica, medical books, prescription books and modern literature. The results showed that the name of Lablab Semen Album in the past dynasties was mostly derived from its shape and color, called Biandou and Baibiandou. The mainstream origin used in the past dynasties was Lablab purpureus, the medicinal parts were mainly white mature seeds, with the addition of the leaves in the Song dynasty and the flowers in the Ming dynasty. Since modern times, the authentic producing areas of Lablab Semen Album are Suzhou, Zhejiang and other places, and now mainly produced in Chuxiong and Xinping, Yunnan and Panzhihua, Sichuan. The traditional quality evaluation of Lablab Semen Album is evaluated as large, solid, full and white. The harvesting time of this herb is recorded from the eighth to the ninth lunar month in related literature, the pods are picked when the seeds are ripe, and the seeds are dried in the sun. In ancient times, the processing of Lablab Semen Album mainly consisted of frying the seeds with skin and then pulverizing for use, or soaking and peeling seeds for raw use. Based on the conclusion of the textual research, it is recommended that the seeds or flowers of the white flowering plants of L. purpureus, a member of the leguminosae, should be used in the famous classical formulas, and the dried seeds or dried flowers of Lablab Semen Album can be used as medicine if the formula did not clearly indicate processing requirements.
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By reviewing ancient materia medica, medical and prescription books, combined with modern literature, the textual research of Stephaniae Tetrandrae Radix has been conducted to verify the name, origin, producing area, harvesting and processing methods. Through textual research, the results show that the mainstream name of this herb recorded in the past dynasties is Fangji, which is also called Hanzhong Fangji because it is produced in Hanzhong city, and after the Tang dynasty, it was gradually divided into Hanfangji and Mufangji, and there is the saying that Han Zhushuiqi, Mu Zhufengqi. The names of Fenfangji and Guangfangji were first seen in the republic of China. In addition, Fenfangji was once distributed in Hankou, so it was also known as "Hanfangji", which is easily confused with the traditional Hanzhong Fangji for short. Based on the original research, it is concluded that Aristolochia heterophylla(Hanzhong Fangji)is the mainstream of Stephaniae Tetrandrae Radix used in the Qing dynasty and before, and the application history of Cocculus orbiculatus can be traced back to before the Tang dynasty. After the Ming dynasty, Stephania tetrandra gradually became another main origin, and in the Republic of China, A. fangchi was used as a medicine for Stephaniae Tetrandrae Radix, but in modern times it was banned because it contained aristolochic acid as a toxic ingredient, and S. tetrandra has become the mainstream legal origin. The traditional production area of Hanzhong Fangji is Hanzhong, Shaanxi province, while today the mainstream of S. tetrandra is manly produced in Jiangxi and other places. Based on the quality evaluation research, the quality of Hanzhong Fangji is better with the radial texture of section used as radial solution, yellow solid and fragrant. Fenfangji with solid quality, white inside, powdered enough, less fiber and radiating texture is better. From the harvesting and processing research, the root of Fangji is mostly harvested in spring and autumn, and the outer bark should be removed in some literature. Before the Ming dynasty, this herb was dried in the shade, and after the Ming dynasty, it was dried in the sun. The modern production processing of Fangji is to harvest it in autumn, wash it, remove the rough bark, dry it to half dry, cut it into sections, and then cut it longitudinally if it is large, and dry it. Based on the results, combined with current studies on the toxicity of aristolochic acid and influencing factors such as commercial circulation, it is suggested that S. tetrandra should be used as the origin of Fangji, the processed products are selected according to the prescription requirements, and those without specified requirements can be processed by referring to the raw products in the 2020 edition of Chinese Pharmacopoeia.
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Through consulting the ancient materia medica and medical books, combined with modern literature, this paper made a textual research on the name, origin, producing area, harvesting time and processing method of Piperis Kadsurae Caulis, in order to provide basis for the development of the famous classical formulas containing this herb. According to textual research, it is shown that the earliest name for Piperis Kadsurae Caulis as medicine was Nanteng in Bencao Shiyi, and there were other names such as Dinggongteng and Shinanteng in the ancient materia medica. The name of Haifengteng should appear in the Ming dynasty. Before the Song dynasty, the origin of Piperis Kadsurae Caulis was probably derived from caulis of Piper wallichii. After the Song dynasty, the main origins should be some species in Piper, such as P. kadsura and P. hancei, and its origin in the successive editions of Chinese Pharmacopoeia was only P. kadsura. Combining the original plant research, market survey and distribution of wild resources, it is suggested that the Haifengteng used in the famous classical formulas apart form the P. kadsura, the P. hancei should be add as original plant. Due to climate change and the heat-loving habit of Piper, the producing area of Haifengteng gradually moved from the Qinling Mountains to the southern areas rich in Piper, and Quanzhou area of Fujian province has been recommended since the Ming dynasty. The harvesting period of Piperis Kadsurae Caulis is from July to August in the lunar calendar, the above-ground parts are dried by removing fibrous roots, thin stems and leaves. In the past dynasties, there are few records on the processing of this herb, so it is suggested that Piperis Kadsurae Caulis in famous classical formulas without special processing requirements should be used as raw products.
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By reviewing ancient materia medica and combining with modern literature, the textual research of Magnoliae Flos has been conducted to verify the name, origin, producing area, harvesting and processing methods, in order to provide basis for the selection and use of this herb in the development of famous classical formulas. After the textual research, it could be seen that the correct name of Magnoliae Flos was Xinyi in the past dynasties, meaning spicy flower buds. The main original plants used in past dynasties are Magnolia denudata and M. biondii. The history of the research on its scientific name in recent times is complicated, many foreign scholars have given several different scientific names, but most of them are inconsistent with the actual situation of Magnoliae Flos used in ancient China, because foreign scholars failed to collect the original plants of Magnoliae Flos for accurate identification. Before the Ming dynasty, Magnoliae Flos was mainly produced in Shaanxi, and then the recorded production areas gradually increased. After the founding of the People's Republic of China, the products produced in Henan named M. biondii were highly respected, and Henan was regarded as authentic producing area, and because of the collection and distribution through Yuzhou, it was customarily called Huichunhua. In ancient times, the harvesting period of Magnoliae Flos mostly concentrated in the first and second months of the lunar calendar, and the flower buds of M. biondii were also recommended to be used as medicine, but nowadays the flower buds are mostly collected in winter and spring, and those with dry buds, large size, yellow-green color, tight inner petals, fragrant smell, and no impurities are preferred. In the past dynasties, raw products were the mainstream, and there were also frying, soaking and so on. Based on the results, it is suggested that the flower buds of M. biondii should be used in the development of famous classical formulas. If the original formula does not specify the processing requirements, the raw products can be used as medicine.
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ObjectiveTo investigate the effect of Bufeitang on intestinal flora of rats with lung Qi-deficiency syndrome of chronic obstructive pulmonary disease(COPD), and to explore the mechanism of traditional Chinese medicine in regulating intestinal flora and thus restoring the balance of lung-gut axis. MethodA total of 84 rats were randomly divided into 7 groups, including blank group, model group, fecal bacterial transplantation(FMT) group, dexamethasone group and low, medium and high dose groups of Bufeitang, 12 rats in each group. Except for the blank group, cigarette and sawdust fumigation combined with intratracheal instillation of lipopolysaccharide(LPS) were used to establish the COPD rat model with lung Qi-deficiency syndrome in all other groups. The low, medium and high dose groups of Bufeitang were intragastric administrated with Bufeitang(3.645, 7.29, 14.58 g·kg-1), the FMT group was given fecal bacteria liquid enema(10 mL·kg-1), dexamethasone group was given dexamethasone acetate tablet suspension by gavage(0.135 mg·kg-1), the blank group and model group were given equal amount of distilled water. Fresh feces were collected after 28 d of continuous intervention for 16S rRNA gene sequencing. Lung and colon tissues were stained with hematoxylin-eosin(HE) for pathomorphological observation, and enzyme-linked immunosorbent assay (ELISA) was performed to detect the contents of tumor necrosis factor-α(TNF-α) and interleukin-8(IL-8) in lung tissues. ResultCompared with the blank group, the model group showed severe abnormal lung tissue structure with alveolar atrophy and collapse accompanied by severe inflammatory cell infiltration. Compared with the model group, the extent of injury was significantly improved, and inflammatory cell infiltration was reduced with basically normal alveolar structure in the high dose group of Bufeitang. Compared with the blank group, the model group had severely abnormal colonic tissue structure, the epithelial cells in the mucosal layer were eroded and shed, the number of inflammatory cells increased, the submucosal layer was edematous and the gap was enlarged. Compared with the model group, the extent of damage was significantly improved in the medium and high dose groups of Bufeitang, the epithelial cells in the mucosal layer were neatly and closely arranged, with only a small amount of inflammatory cell infiltration and no significant degeneration. Compared with the blank group, the TNF-α and IL-8 levels of lung tissue in the model group were significantly increased(P<0.01). Compared with the model group, the TNF-α and IL-8 levels of lung tissues in the low, medium and high dose groups of Bufeitang were significantly decreased(P<0.01). Bufeitang significantly modulated the number of bacteria species as well as alpha and beta diversity of model rats, corrected the return of intestinal flora to normal abundance and diversity, and positively regulated 4 differential phyla(such as Firmicutes, Proteobacteria) and 13 differential genera(such as Turicibacter, Lactobacillus, Anaerobiospirillum, Intestinimonas) in COPD model rats with lung Qi-deficiency syndrome, and down-regulated 2 carbohydrate metabolic pathway functions, including the pentose phosphate pathway(non-oxidative branch) Ⅰ and the Calvin-Benson-Bassham cycle. ConclusionBufeitang can modulate the abundance and diversity of intestinal flora species, affect the function of metabolic pathways, repair the structure of lung and colon tissues, regulate the level of inflammatory factors, and thus improve COPD with lung Qi-deficiency syndrome. The mechanism may be related to its regulation of inflammation-related intestinal flora to restore the balance of lung-gut axis in COPD with lung Qi-deficiency syndrome.
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By reviewing the materia medica, medical books and scripture history, combining modern and contemporary literature and field investigation, this paper systematically reviewed the name, origin, scientific name, producing area, quality, harvesting and processing of Scorpio in famous classical formulas to clarify the relationship between ancient and modern times and provide a reference basis for the development of related famous classical formulas. After the textual research, it can be seen that there are many names of Scorpio, and most of the materia medica use Xie or Quanxie as the official name. The origin of Scorpio used in the past dynasties is Buthus martensii, which is the same in ancient and modern times. B. martensii is mainly distributed in the central and eastern parts of China, as well as Mongolia, Korea and other places, located in East Asia. Therefore, pharmaceutical workers in China mostly continue to use the early Chinese name, that is, Dongya Qianxie, while modern Scorpiones taxonomists set its Chinese name as Mashi Zhengqianxie. In order to maintain the stability and continuity of the origin of Scorpio, the previous editions of Chinese Pharmacopoeia have always used the name of B. martensii. The geo-authentic producing area of Scorpio, which has been respected in the past dynasties, was Qingzhou, Shandong. Until the Republic of China, due to the different processing methods in the production area, the geo-authentic producing area expanded to Yu county, Henan, with Yu county as the distribution center, the best quality of Scorpio is produced by boiling in clear water and drying after boiling. The origin processing of Scorpio is mainly divided into clean water and salt water boiling and then drying, where the method of boiling with salt water was first described in Bencao Yuanshi, the purpose is antiseptic and suitable for storage, and the salt should be washed away when used clinically. There are few processing methods of Scorpio, in ancient times, it was used for roasting or frying after removing the feet, in modern times, it is mostly to remove impurities, wash and dry. Scorpio is not only used for medicinal purposes, but also has the habit of eating in many areas, so the consumption of resources is relatively large, and it is still mainly harvested from the wild, resulting in the decrease of wild resources year by year. Based on the research conclusion, it is recommended that B. martensii, which is produced in Qingzhou, Luyi or Yuzhou, should be used in the the development of famous classical formulas containing Scorpio, and the origin processing is preferable to be dried after boiling with water, and the processing specification should be selected as raw products. And B. martensii in geo-authentic producing areas was used as the seed source to establish a standardized breeding base to ensure the sustainable development of the resources of Scorpio.
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By reviewing the ancient materia medica, medical books and modern literature, this paper made a systematic textual research on Haliotidis Concha in famous classical formulas, including the name, origin, producing area, quality evaluation, harvesting and processing, in order to provide a basis for the development of famous classical formulas containing Haliotidis Concha. The textual research showed that Shijueming was the official name of Haliotidis Concha in past dynasties, and there were also aliases such as Qianliguang, Jiukongluo and Zhenzhumu named after its efficacy, properties and near-phonetic characters. Before the Tang dynasty, the original description of Haliotidis Concha was too concise, which could only be identified as the animal of genus Haliotis, family Haliotidae. During the Song, Yuan, Ming and Qing dynasties, the main varieties were H. diversicolor and H. discus hannai. At the beginning of the Republic of China, a variety of animals from genus Haliotis were used as Haliotidis Concha, and varieties were numerous and continued to this day. In ancient and modern times, the main producing areas in China are Hainan, Guangdong and Shandong, while the foreign producing areas are mainly Japan and Vietnam. The quality evaluation of Haliotidis Concha in ancient books was roughly determined by the number of openings of the expiratory orifice, and seven-hole and nine-hole abalone shells were preferred. In modern times, characters as big, neat, unbroken, clean inside and outside, lustrous, thick shells are preferred. Based on the textual research results and combined with the record years of the Shijueming San, it is suggested that the shells of H. diversicolor or H. discus hannai should be used in the development of this formula, and the raw products should be used as medicine.
ABSTRACT
Benzoinum has a long history of medicinal use. In order to standardize its clinical use, the author made systematic textual research on the name, origin, evolution of scientific name, producing area, property, quality evaluation, harvesting and processing of Benzoinum by reviewing the ancient materia medica, medical books and modern literature. According to the research, the mainstream variety of Benzoinum recorded in ancient materia medica should be the dry resin of Styrax tonkinensis of Styracaceae. In addition to S. benzoin, which was also used in many applications. In modern times, S. benzoin was the mainstream, but in practice, it was mostly the resin of various plants of the genus Styrax, and then S. tonkinensis and S. benzoides were recorded as the main sources of Benzoinum. Nowadays, it mainly comes from S. tonkinensis. In ancient times, the producing areas of Benzoinum were Persia, Xirong, Annan and other places, whereas now are distributed in Indonesia, Sumatra, Thailand, Vietnam, and Fujian, Guizhou, Yunnan, Guangxi, Guangdong and other places in China, but most of the medicinal materials in China are imported. Traditionally, the medicinal materials of Benzoinum with properties of oily, waxy luster, brittle and fragile, strong aroma, sand feeling when chewing and no impurities are considered better. In antiquity, the harvesting time of Benzoinum was concentrated in July and August, while in modern times, it is harvested in summer and autumn, and collected in various ways, usually the trees are selected to be harvested if they are more than 10 years old, and the best quality being the first, milky resin collected when the time of cutting the trees is from April to June. In the past dynasties, the powdered resin was mainly ground and used in formulas, in addition, there were also records of wine steaming into paste and processing with honey, etc. The 1953 edition of Chinese Pharmacopoeia added records such as sevum benzoinatum and adeps benzoinatus, and now it is mostly used as powder into pills or powers, or used after processing with wine. Based on the results of textual research, it is suggested that although the dry resin of S. benzoin is not a medicinal variety of Benzoinum included in the 2020 edition of Chinese Pharmacopoeia, it has a long history of application and has some clinical value, so its medicinal feasibility can be explored in depth. In the development of famous classical formulas containing Benzoinum, the dry resin of S. tonkinensis or S. benzoin can be used, which should be used in medicine as powder after dried or processed according to the requirements of prescriptions.
ABSTRACT
By reviewing ancient materia medica, medical books and modern literature, the name, origin, quality evaluation, producing area and processing methods of Huoxiang herbs were systematically investigated and researched, so as to provide reference and basis for the development and utilization of famous classical formulas containing Huoxiang herbs. Through the herbal textual research, it can be seen that most of materia medica in past dynasties have taken Huoxiang as the nominal rectification, and the mainstream base used is Pogostemon cablin. In order to distinguish another plant of the same family, Agastache rugosa, which has been widely used in Chinese folk since the Ming dynasty, and respect geo-authentic region, Pogostemonis Herba is also named Guanghuoxiang. Pogostemonis Herba is native to Vietnam and other Southeast Asian countries, and was introduced to China as a spice through Guangdong and other places in the early days, and has been successfully cultivated in the south of China since the Song dynasty. The medicinal parts are mostly dried aboveground parts, and the leaves and stems are also separated for medicine sometimes. The geo-authentic region of Pogostemonis Herba is Guangdong in the past dynasties, and it is currently cultivated in Guangzhou, Zhaoqing, Zhanjiang of Guangdong province and Hainan province, with the most famous one cultivated in Shipai. Pogostemonis Herba is mainly planted by cutting propagation. It usually sprouts in February and is harvested in June. The main processed method in region is stuffy dry, which is placed in the sun and repeatedly suffocated until it has an aromatic smell and the color turns yellow. The processing method is mostly to use the raw product as medicine after being selected. Based on the research results, it is suggested that the leaves of P. cablin are used in Yangweitang, for Huopo Xialingtang, it is recommended to choose the raw product of A. rugosa that is removed the roots and old stems.
ABSTRACT
By reviewing ancient materia medica, medical books and modern literature, this paper conducted a systematic research on name, origin, scientific name evolution, producing area, quality, harvesting and processing methods of Alpiniae Officinarum Rhizoma. The results showed that Alpiniae Officinarum Rhizoma was first published in Mingyi Bielu, and its correct name was Gaoliangjiang. The mainstream origin of Alpiniae Officinarum Rhizoma used in the past dynasties is Alpinia officinarum, which is used to this day, while it used to be mixed with A. galanga because of the similar name and morphology. Alpiniae Officinarum Rhizoma produced in Danzhou and Leizhou was considered to be better in ancient times, and now it mainly produced in Guangdong, Guangxi and Hainan provinces. In addition, it has been concluded that Alpiniae Officinarum Rhizoma with reddish brown, sturdy and firm character, wrinkled skin, convex flesh, aromatic and spicy taste, and few branches is the best. In ancient times, Alpiniae Officinarum Rhizoma was commonly harvested in February and March, whereas it generally harvested in late summer or early autumn at present, and wild products are usually harvested before the rainy season in May. The main processing methods of Alpiniae Officinarum Rhizoma are cleansing and cutting, and some other methods are stir-frying or mixing with auxiliary materials. Based on the research results, it is suggested that the raw products of A. officinarum rhizomes or its processed products according to prescription requirements should be used in the development of famous classical formulas containing Alpiniae Officinarum Rhizoma.
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By reviewing ancient materia medica, prescription books, medical books and modern literature, this article makes a systematic textual research on the name, origin, commercial specification, producing area, harvesting and processing of Scutellariae Radix used in famous classical formulas according to the historical development, in order to provide a reference for the development and utilization of famous classical formulas. Scutellariae Radix was first named as Qian, Qin and so on, while Huangqin was used as the official name in ancient literature, as well as many aliases such as Fuchang, Huangwen and Dufu. The main origin of Scutellariae Radix in the past dynasties was Scutellaria baicalensis, and other Scutellaria plants were also used for Scutellariae Radix at different times. The medicinal parts of Scutellariae Radix in all dynasties are roots, since the Northern and Southern dynasties, it has gradually differentiated into Ziqin and Kuqin with different efficacy according to their different growth stages and characteristics, and continued to this day. At present, most of Scutellariae Radix are Ziqin in the market, due to the influence of cultivation cost, index component content requirements and other factors. The production area of Scutellariae Radix recorded in ancient literature was wide and gradually expanded from the Yangtze River basin to the northward. Since modern times, Chengde city of Hebei province has been respected as a geo-authentic area, now S. baicalensis is cultivated in a wide area, spreading over north and northeast China. Scutellariae Radix was mostly used as raw products in the early period, and a variety of processed products appeared in the Ming dynasty. Development continues to this day, Scutellariae Radix mainly includes raw products and wine-processed products. According to the research conclusion, it is suggested that S. baicalensis should be used as Scutellariae Radix in famous classical formulas, and the selection of its commercial specifications and processed products can be comprehensively determined according to the requirements of original prescription and the clinical effect.
ABSTRACT
By reviewing ancient materia medica, prescription and medical books, combined with modern literature, the paper made textual research on the name, origin, producing area, quality evaluation, harvesting and processing methods of Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix, so as to provide a basis for the selection and use of these two herbs in the development of famous classical formulas. Through textual research, it can be found that Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix were mixed together in the early history of China, but the distinction was first made during the Southern and Northern dynasties, and since then there have been constant controversies, and it is not until contemporary times that they are distinguished clearly. In the past dynasties, Duhuo and Qianghuo were used as the rectification of names, some aliases and trade names were also seen. Angelica biserrata is the mainstream origin of Angelicae Pubescentis Radix in the past dynasties, and there are many plants belonging to Angelica, Heracleum and Aralia, which are also used as this medicine. However, the origin of Notopterygii Rhizoma et Radix used in the past dynasties is mostly Notopterygium incisum or N. franchetii, which is relatively uniform. The producing areas of Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix are mostly concentrated in the western and northwestern regions of China, among which Angelicae Pubescentis Radix is mainly produced in Hubei, Chongqing, Sichuan, Shaanxi and other places, and the border area between Hubei and Chongqing is the geo-authentic area. Notopterygii Rhizoma et Radix is mainly produced in Sichuan, Gansu, Qinghai, Shaanxi and others with the western and northern Sichuan and southern Gansu as the geo-authentic areas. Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix in the past dynasties were harvested in spring and autumn, especially in February and August of the lunar calendar. Angelicae Pubescentis Radix with strong main roots, few branches, firm texture and strong aroma is superior, and Notopterygii Rhizoma et Radix with strong rhizomes, tightly raised knots, purple-brown skin, tight cross-section, strong aroma and silkworm-like shape is superior. The processing methods of Angelicae Pubescentis Radix and Notopterygii Rhizoma et Radix are mostly cut after cutting the reeds, and the raw product is used as medicine. Based on the above research results, it is recommended that the roots of A. biserrata should be used for Angelicae Pubescentis Radix and the roots of N. incisum should be used for Notopterygii Rhizoma et Radix in the development of famous classical formulas, and raw products should be used in the formulas that do not specify processing requirements.